This technically challenging but feasible reconstructive surgery model eliminates inter-subject variability, while concomitantly minimizing the number of animals needed to achieve adequate statistical power. BEFAFs may be used to investigate the spatiotemporal cellular and molecular responses to complex tissue injury, interventions simulating clinically relevant flap complications (e.g., vascular thrombosis) as well as prophylactic, therapeutic or surgical treatment (e.g., flap delay) strategies in the presence or absence of confounding risk factors (e.g., substance abuse, irradiation, diabetes) or favorable wound-healing promoting activities (e.g., exercise). Detailed visual instructions in BEFAF protocol may serve as an aid for teaching medical or academic researchers basic vascular microsurgery techniques that focus on precision, tremor management and magnification.
Keyphrases
- risk factors
- breast reconstruction
- randomized controlled trial
- wound healing
- soft tissue
- physical activity
- type diabetes
- minimally invasive
- cardiovascular disease
- healthcare
- medical students
- pulmonary embolism
- deep brain stimulation
- coronary artery bypass
- high intensity
- parkinson disease
- ischemia reperfusion injury
- adipose tissue
- single molecule
- skeletal muscle
- blood brain barrier
- radiation therapy
- acute coronary syndrome
- oxidative stress
- insulin resistance
- medical education
- cerebral ischemia
- weight loss